Scientists have discovered a potential new treatment for familial hypercholesterolemia, inspired by signs seen in the Mona ...

Homozygous familial hypercholesterolaemia affects approximately 30 000 individuals worldwide.1,2 Patients have untreated high ...

The findings revealed that regular consumption of mixed nuts markedly enhances blood lipid profiles, leading to changes in specific lipoprotein subclasses that are associated with improved heart ...

As a result, serum concentration of apoB is a better marker of atherogenic lipoprotein particle numbers than both LDL-C and non-HDL-C. Especially in subjects with a large number of cholesterol ...

Matter can be both wave and particle. If you take the particle route, these subatomic particles are what you could say the universe and everything in it is made of. There are many ways to further ...

"For decades, we've had a traditional view of the proton as a collection of quarks and gluons, and we've been focused on understanding so-called single-particle properties, including how quarks ...

While LDL can build up in arteries over time and ... Research has suggested that HDL particle size may play a role. What Did the Study Show? To learn about how HDL particle size affects the ...

Although you cannot do much if you have inherited raised small, dense LDL, you can make some changes to your lifestyle to lower your chances of developing this particle. Ways you can lower your risk ...

In general, a high cholesterol score — generally a score of ≥190 milligrams per deciliter of low-density lipoprotein cholesterol (LDL-C) — alongside a zero CAC score indicates a low risk of ...

Don Lincon, a senior scientist at the U.S. particle physics laboratory Fermilab, describes bosons as “puppies of the subatomic world” because you can have an unlimited number of bosons in the ...

You also have: LDL cholesterol. This is known as "bad" cholesterol because it can stick to the walls of your arteries. That narrows them and make it harder for blood to get through. LDL ...

Scientists have come a step closer to understanding how collisionless shock waves -- found throughout the universe -- are able to accelerate particles to extreme speeds. Scientists have come a ...